Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.5.4.17 (adenosine deaminase)
5,206 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dipyridamole was initially introduced as a coronary vasodilator. The exact mechanism of action of dipyridamole on the coronary vasculature is unknown, but proposed mechanisms of action include inhibition of adenosine uptake, increased myocardial prostacyclin production and inhibition of phosphodiesterase activity. The purpose of our study was to examine the electrophysiological effects of dipyridamole on guinea-pig papillary muscles and canine cardiac Purkinje fibers to determine whether similar mechanisms might account for the electrophysiological effects of this compound. Conventional microelectrode techniques were used to record transmembrane action potentials from either guinea-pig papillary muscles or canine cardiac Purkinje fibers. Dipyridamole produces a dose-dependent prolongation of action potential duration with a threshold concentration of approximately 5 X 10(-7) M in tissues from either species. Dipyridamole (10(-5) M) increases action potential amplitude (124 +/- 1 to 127 +/- 1 mV), increases action potential duration (119 +/- 6 to 146 +/- 5 msec) and produces hyperpolarization of the resting potential (-85 +/- 1 to -87 +/- 1 mV) in guinea-pig papillary muscles (n = 27, P less than .05). Dipyridamole (10(-5) M) increases action potential duration (276 +/- 5 to 293 +/- 5 msec) in canine cardiac Purkinje fibers (n = 21, P less than .05). The effects of dipyridamole (5 X 10(-7) M) are neither accentuated by adenosine (10(-4) M) nor attenuated by adenosine deaminase (1 U/ml) Pretreatment with indomethacin (10(-5) M) does not block these effects. Dipyridamole (10(-5) M) produces a negative chronotropic response in canine Purkinje fibers, increases mean escape intervals from 4.9 +/- 0.9 to 7.8 +/- 1.4 sec (n = 8, P less than .05) and fails to suppress slow response action potentials in 22 mM K+ depolarized tissues.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Adenosine and prostacyclin independent electrophysiological effects of dipyridamole in guinea-pig papillary muscles and canine cardiac Purkinje fibers. 609 2

The effects of purine compounds on the contraction of isolated guinea pig tracheal pigs induced by histamine were studied in vitro. Adenosine, at 0.1-1 mM concentrations, suppressed the contraction induced by histamine in the isolated guinea pig tracheal rings in a concentration-dependent manner. ATP, AMP and adenine were also effective in blocking tracheal constriction induced by histamine. The other purine compounds such as inosine, guanosine, guanine and hypoxanthine had no effect on tracheal smooth muscle. Coformycin, which is a competitive inhibitor of adenosine deaminase, did not potentiate adenosine action. Dipyridamole, which blocks adenosine uptake, did not impair the suppression caused by adenosine. These results suggest that adenosine action on tracheal smooth muscle cells may be mediated by direct action on cell surface receptors. In addition, it seems that adenosine is an important modulator of tracheal smooth muscle cell function.
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PMID:Suppression by adenine compounds of histamine-induced contraction in isolated guinea pig tracheal rings. 612 81

The cyclic AMP level of 17-day-old chick embryo retina increased from 20 to 331 pmol/mg protein when the tissue was incubated for 20 min in the presence of 4-(3-butoxy-4-methoxybenzyl-2-imidozolinone) (RO 20-1724). The addition of 0.5 mM-3-isobutyl-1-methylxanthine (IBMX) or 0.5 units/ml of adenosine deaminase (EC 3.5.4.4) to the medium reduced the increase of cyclic AMP content from 20 to 100 pmol/mg protein. Dipyridamole did not interfere with the rise of the retinal cyclic AMP level observed with RO 20-1724. The EC50 of 6-amino-2-chloropurine riboside (2-chloroadenosine)-elicited accumulation of cyclic AMP of retinas incubated in the presence of RO 20-1724 plus adenosine deaminase was approximately 1 microM. When retina incubation was carried out in the presence of 0.5 mM-IBMX, the 2-chloroadenosine dose-response curve was shifted to the right two orders of magnitude. Maximal stimulation of the cyclic AMP level of 17-day-old chick embryo retina incubated in the presence of 0.5 mM-IBMX was observed at 1 mM-adenosine concentration. This effect was not blocked by dopamine antagonists. Guanosine and adenine did not affect the retinal cyclic AMP level. AMP and ATP had a slight stimulatory effect. Adenosine response of embryonic retina increased sharply from the 14th to the 17th embryonic day. A similar, but not identical adenosine effect was observed in cultured retina cells.
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PMID:Adenosine-elicited accumulation of adenosine 3', 5'-cyclic monophosphate in the chick embryo retina. 618 Jan 36

Adenosine inhibited three Ca2+-dependent potentials recorded intracellularly from post-ganglionic neurones of the rat superior cervical ganglion. A shoulder on the falling phase of the action potential elicited in normal Locke solution, a hyperpolarizing after-potential (h.a.p.) that follows the spike, and a regenerative Ca2+ spike elicited in Locke solution containing TTX and TEA were all reversibly inhibited by adenosine analogues in a dose-dependent fashion. The maximum rate of rise of the Ca2+ spike (dV/dt) was markedly reduced suggesting that the underlying mechanism of adenosine action is inhibition of the Ca2+ conductance mechanism and thus, the voltage-sensitive Ca2+ current. I/V curves in low Ca2+, high Mg2+, TTX, TEA, and Co2+ to block the Ca2+ current show no change in resistance in the presence of 2-chloroadenosine. The actions of adenosine were nearly eliminated in the presence of 1 mM-theophylline, an adenosine receptor antagonist. The order of agonist potency on the inhibition of the h.a.p. was: N-6-[L-phenylisopropyl] adenosine (L-PIA) greater than 2-chloroadenosine greater than adenosine greater than cyclic AMP = 5' AMP. The concentration of L-PIA which produced a half-maximal effect (EC50) was 0.5 microM and that for cyclic AMP was 100 microM. Dipyridamole, an adenosine uptake blocker, potentiated the effects of low concentrations of adenosine and shifted the dose-response curve for adenosine towards that of 2-chloroadenosine (EC50 = 1 microM). These results are consistent with the concept of an external adenosine receptor, but we are unable to assign a receptor subtype. Cyclic AMP mimicked the effects of adenosine, but these effects were eliminated by adenosine deaminase. Our results suggest that the electrogenic effects of bath-applied cyclic AMP may result from the metabolism of cyclic AMP to adenosine by ganglionic tissue. We conclude that adenosine activates a receptor on the neuronal cell surface to inhibit the voltage-dependent Ca2+ current.
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PMID:The ionic basis of adenosine receptor actions on post-ganglionic neurones in the rat. 630 30

The effects of a series of adenosine derivatives were examined on the catecholamine-stimulated electrically-driven rat left atrium in vitro. All the purines tested reduced the positive inotropic action of isoprenaline, 0.1 microM, with the potency order: L-N6-phenlylisopropyladenosine (L-PIA) greater than 5'-N-ethylcarboxamide adenosine (NECA) greater than D-PIA greater than 2-chloroadenosine greater than adenosine. Dipyridamole did not change the IC50 of adenosine. The adenosine deaminase inhibitor, 2'deoxycoformycin, produced a small but nonsignificant shift to the left of the adenosine concentration-response curve. The cardiac depressant effects of these purines were reversed by theophylline and the IC50 values were unchanged in the presence of atropine or in atria taken from reserpine-treated rats. It is concluded that the purine receptor mediating these effects should not be classified on the A1/A2 system. The relationship between functionally characterized purine receptors and those originally defined as modulating adenylate cyclase is discussed.
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PMID:Inhibition by purines of the inotropic action of isoprenaline in rat atria. 631 27

The role of adenosine in postcontraction hyperemia (PCH) following sustained, maximal isometric contractions was studied in free-flowing dog gracilis muscles. The hemodynamic responses to contraction were examined in the presence and absence of dipyridamole (an adenosine transport inhibitor), erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA, an adenosine deaminase inhibitor), or alpha, beta-methyleneadenosine-5'-diphosphate (AOPCP, an inhibitor of 5'-nucleotidase). Each muscle was stimulated to contract for 1, 3, 5, and 10 s during saline and drug infusions. For each contraction, the tension-time integral (TT), excess flow (EQ), and excess oxygen consumption (EVo2) were computed. Linear regression analyses were then performed on EQ vs. TT, EVo2 vs. TT, and EQ vs. EVo2. An alteration of the PCH response by the drug was determined as any significant change from the saline control in the slope of the linear regression of EQ vs. EVo2. Dipyridamole and EHNA caused increases of 73 and 48%, respectively, in the slope of EQ vs. EVo2, whereas AOPCP decreased the slope by 41%. The changes in the PCH produced by these drugs are consistent with the hypothesis that an increase in interstitial adenosine during muscular contraction contributes to PCH.
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PMID:Adenosine as a mediator of postcontraction hyperemia in dog gracilis muscle. 669 37

Postischemic vasodilation (PIVD) was studied in pump-perfused dog gracilis muscles. The hemodynamic responses to 1, 3, and 5 min of ischemia were evaluated in the presence and absence of intraarterial infusions of dipyridamole in concentrations that inhibit cellular transport of adenosine. Dipyridamole infusion produced concentration-dependent reductions in vascular resistance and increased the time for 50% recovery (t0.5) in vascular resistance by 39% following 5 min of ischemia. The t0.5 for PIVD was unaffected by dipyridamole following 1 and 3 min of ischemia. Dipyridamole elevated tissue adenosine content two- to three-fold at 1, 3, and 5 min of ischemia compared with saline controls. Intra-arterial infusions of adenosine deaminase along with dipyridamole completely prevented the dipyridamole-induced increase in tissue adenosine, demonstrating that dipyridamole increases extracellular adenosine during muscle ischemia. The significance of these findings is analyzed using a two-compartment model for the distribution of adenosine. The data indicate that a severalfold increase in interstitial adenosine content does not alter PIVD and that the hemodynamic effects of dipyridamole following 5 min of ischemia may be due to some mechanism other than enhanced accumulation of adenosine.
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PMID:Effects of dipyridamole on postischemic vasodilation and extracellular adenosine. 682 94

The effect of adenosine on release of acetylcholine (ACh) was investigated in slices of rat cortex perfused with Krebs solution, at rest and during electrical stimulation at frequencies between 0.2 and 20 Hz. Electrical stimulation brought about a linear increase in release of ACh. Adenosine, in concentrations ranging from 1 to 100 microM, reduced in a dose-dependent manner the release of ACh and was more active on the stimulated than on the resting release. However, the fractional reduction by adenosine of stimulated release of ACh did not vary with increasing stimulation rate. Adenosine triphosphate was less active than adenosine in reducing release of ACh. The inhibitory effect of adenosine was antagonized by aminophylline (0.5 mM) and did not occur when the stimulated release of ACh was enhanced by blocking muscarinic autoreceptors with atropine (15 nM). Aminophylline (0.1 and 0.5 mM) itself exerted a biphasic effect on release of ACh, increasing it at rest and during stimulation at low frequencies, and decreasing it at higher stimulation rates. The manipulation of endogenous adenosine concentrations by adding adenosine deaminase or diphyridamole, an inhibitor of adenosine uptake, had little effect on release of ACh. Dipyridamole, (4 microM), only significantly decreased release of ACh at the 20 Hz stimulation rate.
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PMID:Effect of adenosine, adenosine triphosphate, adenosine deaminase, dipyridamole and aminophylline on acetylcholine release from electrically-stimulated brain slices. 687 38

The aim of this study was to determine whether ATP must be hydrolysed to adenosine in order to activate the P1-purinoceptor. Isometric contractions of electrically paced guinea-pig isolated left atria were recorded. Purines evoked negative inotropic responses that were competitively antagonised by theophylline. The order of agonist potency was 2-chloroadenosine greater than adenosine greater than beta, gamma-methylene ATP greater than ATP. Adenosine deaminase alone, or combined with 5'-nucleotidase, attenuated responses to adenosine and 5' AMP, respectively, but did not decrease those to ATP or beta, gamma-methylene ATP. Inhibition of 5'-nucleotidase did not alter responses to ATP. Dipyridamole potentiated responses to ATP both in the absence and in the presence of adenosine deaminase. Alpha, beta-methylene ATP had little agonist activity, however this was not due to its resistance to hydrolysis as the stable beta, gamma-methylene isostere of ATP was a potent agonist. These results indicate that hydrolysis of ATP to adenosine or 5' AMP is not a pre-requisite for activation of the P1-receptor in the guinea-pig atrium.
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PMID:Can ATP stimulate P1-receptors in guinea-pig atrium without conversion to adenosine? 689 58

The effects of coformycin, a highly potent and specific inhibitor of the intracellular enzyme adenosine deaminase and the influence of dipyridamole, an inhibitor of the cellular adenosine uptake mechanism, were studied on the adenosine-induced changes in the electrical and mechanical activity of isolated electrically driven left atria of guinea-pig hearts. Adenosine (0.1 mumol/l-1 mmol/l) by itself elicited a concentration-dependent decrease in the action potential duration and contractile force of atrial preparations. Coformycin, when applied in a concentration inducing a nearly complete inhibition of adenosine deaminase activity in intact atrial myocardium (7 mumol/l), enhanced the adenosine-induced reduction both in the duration of the intracellularly recorded action potential and in the contractile force of the atria, preferentially at higher concentrations of adenosine (10 mumol/l-1 mmol/l). The calculated half recovery time during wash-out (t1/2) was found to be about 6 times longer than that of controls (317.5 +/- 47 and 51.3 +/- 4.3 sec, respectively). In contrast with adenosine, the action of 2-chloroadenosine (an adenosine deaminase resistant purine derivative) on the atrial contractile force was not affected in the presence of coformycin. Dipyridamole (0.3 mumol/l) was capable of significantly potentiating the adenosine-induced depression of atrial mechanical activity, mainly at lower concentrations of adenosine (0.1-10 mumol/l). Preincubation of atrial preparations with a combination of coformycin and dipyridamole produced a strong enhancement in the adenosine-induced decrease of mechanical activity at all concentrations of adenosine. It is suggested that adenosine might exert its myocardial actions not only through the known extracellular, but also via possible intracellular purinoceptors.
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PMID:Potentiation of the myocardial actions of adenosine in the presence of coformycin, a specific inhibitor of adenosine deaminase. 710 13


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